- Conrad discontinuity
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The Conrad discontinuity corresponds to the sub-horizontal plane that takes place in the continental crust in which the seismic wave velocity increases in discontinuous mode. This plane is observed in various continental regions in a depth of 15 to 20 km, however it is not found in oceanic regions.
The Conrad discontinuity (named after the seismologist Victor Conrad) is considered to be the border between the upper continental crust and the lower one. It is not as pronounced as the Mohorovičić discontinuity, and absent in some continental regions. Up to the middle 20th Century the upper crust in continental regions was seen to consist of felsic rocks such as granite (SiAl, for silica-aluminium), and the lower one to consist of more magnesium-rich mafic rocks like basalt (SiMa, for silica-magnesium). Therefore, the seismologists of that time considered that the Conrad discontinuity should correspond to a sharply defined contact between the chemically distinct two layers, SiAl and SiMa.
However, form the 1960s onward this theory was strongly contested among geologists. The exact geological significance of the Conrad discontinuity is still not clarified. The partial melting zones that are scattered in the continental crust might provide an explanation.
References
Categories:- Plate tectonics
- Structure of the Earth
- Geophysics stubs
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